1.

Huang, C. L.; He, Z. F.; Pai, J. Y.; Yang, Y. H.; Jao, W. Y.; Lai, C. Y.; Lu, Y. T.; Ku, H. Y.; Hu, C. C. “Atomically well-mixed quad-metallic sulfide as multi-functional electrocatalyst for overall water splitting and zinc-air battery”, Chem. Eng. J. 469, 143855 (2023). (1st author, SCI: 15.1, 3/55 = 5.45%, June).

2.

Huang, C. L.; Lin, Y. G.; Chiang, C. L.; Peng, C. L.; Senthil Raja, D.; Hsieh, C. T.; Chen, Y. A.;Chang, S. Q.;  Yeh, Y. X.; Lu, S. Y. “Atomic scale synergistic interactions lead to high performance catalysts for electrocatalytic water splitting”, Appl. Catal. B 320, 122016 (2023). (1st author, SCI: 22.1, 1/55 = 1.82%, June).

3.

Liu, S. T.; Ku, H. Y.; Huang, C. L.; Hu, C. C. “Improvements in Li deposition and stripping induced by Cu (111) nanotwinned columnar grains”, Electrochim. Acta 430, 141011 (2022). (SCI: 6.6, 8/30 = 26.67%, June).

4.

Chang, S. Q.; Cheng, C. C.; Cheng, P. Y.; Huang, C. L.; Lu, S. Y. “Pulse electrodeposited FeCoNiMnW high entropy alloys as efficient and stable bifunctional electrocatalysts for acidic water splitting”, Chem. Eng. J. 446, 137452 (2022). (SCI: 15.1, 3/55 = 5.45%, June).

5.

Senthil Raja, D.; Cheng, P. Y.; Cheng, C. C.; Chang, S. Q.; Huang, C. L.; Lu, S. Y. “In-situ grown metal-organic framework-derived carbon-coated Fe-doped cobalt oxide nanocomposite on fluorine-doped tin oxide glass for acidic oxygen evolution reaction” Appl. Catal. B 303, 120899 (2022). (SCI: 22.1, 1/55 = 1.82%, June).

6.

Pai, J. Y.; Hsieh, C. T.; Lee, C. H.; Wang, J. A.; Ku, H. Y.; Huang, C. L.; Hardwick, L. J.; Hu. C. C. “Engineering of electrospun polyimide separators for electrical double-layer capacitors and lithium-ion cells”, J. Power Sources 482, 229054 (2021). (SCI: 9.2, 21/117 = 17.95%, June).

7.

Tan, J. Y.; Su, J. T.; Wu, Y. J. Huang, C. L.; Cheng, P. Y.; Chen, Y. A.; Lu, S. Y.“Hollow porous α-Fe2O3 nanoparticles as anode materials for high-performance lithium-ion capacitors”, ACS Sustain. Chem. Eng. 9, 1180 (2021). ((SCI: 8.4, 12/141 = 8.51%, June).

8.

Wu, Y. J.; Chen, C. H.; Lin, S. H.; Huang, C. L.; Yeh, Y. X.; Tan, J. Y.; Su, J. T.; Hsieh, C. T.; Lu, S. Y. “Triple functionalization of carved N-doped carbon nanoboxes with synergistic trimetallic sulphide for high performance lithium–sulphur batteries”, J. Mater. Chem. A 9, 9028 (2021). (SCI: 11.9, 32/342 = 9.36%, June).

9.

Huang, C. L.; Sasaki, K.; Senthil Raja, D.; Hsieh, C.-T.; Wu, Y. J.;  Su, J. T.;  Cheng, C. C.;  Cheng, P. Y.;  Lin, S. H.;  Choi, Y.; Lu, S. Y. “Twinning enhances efficiencies of metallic catalysts toward electrolytic water splitting”, Adv. Energy Mater. 11, 2101827. (2021). (1st author, SCI: 27.8, 9/342 = 2.63%, Inside Front Cover).

10.

He, L. G.; Huang, C. L.; Hsieh, C. T.; Wu, Y. J.; Lu, S. Y. “NiFeCoMo based cuboids as outstanding bifunctional electrocatalysts for overall water splitting”, Appl. Catal. B 290, 1200419 (2021). (SCI: 22.1, 1/55 = 1.82%, June).

11.

Cheng, C. C.; Cheng, P. Y.; Huang, C. L.; Senthil Raja, D.; Wu, Y. J.; Lu, S. Y. “Gold nanocrystal decorated trimetallic MOFs as high performance electrocatalysts for oxygen evolution reaction”, Appl. Catal. B 286, 119916 (2021). (SCI: 22.1, 1/55 = 1.82%, June).

12.

Senthil Raja, D.; Huang, C. L.; Chen, Y. A.; Choi, Y. M.; Lu, S. Y. “Composition–balanced trimetallic MOFs as ultra–efficient electrocatalysts for oxygen evolution reaction at high current densities”, Appl. Catal. B 279, 119375 (2020). (SCI: 22.1, 1/55 = 1.82%, June). 

13.

Wu, Y. J.; Chen, Y. A.; Huang, C. L.; Su, J. T.; Hsieh, C. T.; Lu, S. Y. “Small highly mesoporous silicon nanoparticles for high performance lithium ion based energy storage”, Chem. Eng. J. 400, 125958 (2020). (SCI: 15.1, 3/55 = 5.45%, June). 

14.

Su, J. T; Wu, Y. J; Huang, C. L.; Chen, Y. A.; Cheng, H. Y.; Cheng, P. Y.; Hsieh, C. T.; Lu, S. Y. “Nitrogen–doped carbon nanoboxes as high rate capability and long–life anode materials for high–performance Li–ion capacitors”, Chem. Eng. J. 396, 125314 (2019). (SCI: 15.1, 3/55 = 5.45%, June).

15.

Liang, T. Y.; Senthil Raja, D.; Chin, K. C.; Huang, C. L.; Sethupathi, S. A/P.; Leong, L. K.; Tsai, D. H.; Lu, S. Y. “Bimetallic metal–organic framework–derived hybrid nanostructures as high–performance catalysts for methane dry reforming”, ACS Appl. Mater. Interfaces 13, 15183. (2019). (SCI: 9.5, 55/342 = 16.08%, June).

16.

Huang, C. L.; Weng, W. L.; Huang, Y. S.; Liao, C. N. “Enhanced photolysis stability of Cu₂O grown on Cu nanowires with nanoscale twin boundaries”, Nanoscale 11, 13709 (2019). (1st author, SCI: 6.7, 88/342 = 25.73%, June, back cover).

17.

Cheng, P. Y.; Cheng, H. Y.; Huang, C. L.; Chen, Y. A.; Hsieh, C. T.; Lu, S. Y. “N–Doped hierarchical continuous hollow thin porous carbon nanostructure for high–performance flexible gel–type symmetric supercapacitors”, ACS Sustain. Chem. Eng. 7, 17020 (2019). (SCI: 8.4, 12/141 = 8.51%, June, supplementary cover).

18.

Hsieh, C. T.; Huang, C. L.; Chen, Y. A.; Lu, S. Y. “NiFeMo alloy inverse–opals on Ni foam as outstanding bifunctional catalysts for electrolytic water splitting of ultra–low cell voltages at high current densities”, Appl. Catal. B 267, 118376 (2019). (SCI: 22.1, 1/55 = 1.82%, June).

19.

Hsieh, C. T.; Chuah, X. F.; Huang, C. L.; Lin, H. W.; Lu, S. Y. “NiFe/(Ni,Fe)3S2 core/shell nanowire arrays as outstanding catalysts for electrolytic water splitting at high current densities”, Small Methods 3, 1900234 (2019). (SCI: 12.4, 31/342 = 9.06%, June, back cover) 

20.

Cheng, H. Y.; Cheng, P. Y.; Chuah, X. F.; Huang, C. L.; Hsieh, C. T.; Yu, J.; Lin, C. H.; Lu, S. Y. “Porous N–doped carbon nanostructure integrated with mesh current collector for Li–ion based energy storage”, Chem. Eng. J. 374, 201 (2019). (SCI: 15.1, 3/55 = 5.45%, June). 

21.

Huang, C. L.; Chuah, X. F.; Hsieh, C. T.; Lu, S. Y. “NiFe alloy nanotube arrays as highly efficient bifunctional electrocatalysts for overall water splitting at high current densities”, ACS Appl. Mater. Interfaces 11, 24096 (2019). (1st author, SCI: 9.5, 55/342 = 16.08%, June).

22.

Li, C. H.; Huang, C. L.; Chuah, X. F.; Senthil Raja, D.; Hsieh, C. T.; Lu, S. Y. “Ti–MOF derived TixFe1−xOy shells boost Fe2O3 nanorod cores for enhanced photoelectrochemical water oxidation”, Chem. Eng. J. 361, 660 (2019). (SCI: 15.1, 3/55 = 5.45%, June).

23

Chuah, X. F.; Hsieh, C. T.; Huang, C. L.; Senthil Raja, D.; Lin, H. W.; Lu, S. Y. “In–situ grown, passivator–modulated anodization derived synergistically well–mixed Ni−Fe oxides from Ni foam as high–performance oxygen evolution reaction electrocatalyst”, ACS Appl. Energy Mater. 2, 743 (2019). (SCI: 6.4, 88/342 = 25.73%, June). 

24

Huang, C. L.; Weng, W. L.; Liao, C. N.; Tu, K. N. “Suppression of interdiffusion–induced voiding in oxidation of copper nanowires with twin–modified surface”, NAT. COMMUN. 9, 340 (2018). (1st author, SCI: 16.6, 6/75 = 8%, June).  

1.

Huang, C. L.; Yang, C. J.; Liao, C. N. “Chemical stability of nanotwinned Cu Nanowires”, International Union of Materials Research Societies IUMRS (2017), poster.

2.

Huang, C. L.; Yang, C. J.; Liao, C. N. “Chemical reactivity of twin-modified copper nanowire surfaces”, Materials Research Society MRS (2016), poster.

1.

Lin, J. H.; Chiu, C. C.; Lee, Y. H.; Liao, C. N.; Chueh, Y. L.; Chan, T. C.; Huang, C. L. “Method for forming semiconductor device structure having conductive structure with twin boundaries”, U. S. Patent 2017, US10,475,742B2.

2.

2. Lin, J. H.; Chiu, C. C.; Lee, Y. H.; Liao, C. N.; Chueh, Y. L.; Chan, T. C.; Huang, C. L. “Interconnect structure with twin boundaries and method for forming the same”, U. S. Patent 2017, US9,761,523B2.

3.

Huang, C. L.; Lu. S. Y. “Method for electrolysis of water and method for preparing catalysts for electrolysis of water”, U. S. Patent 2022, US11,359,297B2.

4.

. Huang, C. L.; Lu. S. Y. “Method for electrolysis of water”, U. S. Patent 2023, US11, 572, 631B2.

5.

黃俊龍^#; 呂世源“電解水的方法及用於電解水的觸媒的製備方法”, 中華民國發明專利, 2021, I745828. 專利期間2021/11/11~2040/01/08